Presentation is loading. Please wait.

Presentation is loading. Please wait.

Bridge Converters and Faraday Screens By Paul Wilson.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Bridge Converters and Faraday Screens By Paul Wilson."— Presentation transcript:

1 Bridge Converters and Faraday Screens By Paul Wilson

2 Outline Bridge Converters Introduction Transformer Design example Problems with Bridge Converter Design Possible Solutions Schematic Simplorer Simulation

3 Outline Faraday Screens Difficulties in switchmode power supply design Applications to switches Differences between Faraday Screens and Safety Screens

4 Bridge Converters Advantages Single primary winding Works in well defined conditions Flyback energy recovery without energy recovery winding Disadvantages Cost More parts

5 Design Example Straightforward design Minimize magnetization current Specifications

6 Step 1 Select Core Size Initial efficiency of 75% therefore transmitted power will be 500/0.75 = 667 W

7 Step 2 Select optimum flux density. Usually it is understood that minimum loss (maximum efficiency) will be found near the point where the copper and core losses are equal, this is shown in figure 5 at 70 mT where the core loss is 44%. 80 mT is normally assumed as the optimum choice.

8 Step 2 cont. A 100 mT is recommended by the manufacturer is not far from optimum and this higher value will be used to reduce the number of turns

9 Step 3 Calculate Primary Voltage Vcc Vcc = 90 x 1.3 x 1.9 = 222 VDC

10 Step 4 Maximum on period

11 Step 5 Calculate Primary turns

12 Step 6 Calculate secondary turns

13 Problems Staircase Saturation Transient Saturation Effects Solutions Adding fast acting current limits to power transistors Controlling slew rate of control amplifier Forced Flux Density Balancing

14 Circuit Schematic

15 Simplorer Simulation

16 Waveforms

17 Faraday Screens Difficulties in switchmode power supply design Reducing RFI and EMI noise Components that are thermally linked to chassis Applied to high-frequency and high-voltage

18 Applications to Switching Devices Components that are thermally linked to chassis Principles of Faraday Screens Returns current to “star” points

19 TO3 Transistor Example

20 Faraday Screens Vs Safety Screens Location Rating Structure Return to input or output circuits Made of light weight copper Small Current Return to chassis Made of more durable material Rated to 3 times supply fuse rating Faraday Screens Safety Screens

21 Faraday Screen Considerations Only use when necessary Application results in lower power efficiency

Download ppt "Bridge Converters and Faraday Screens By Paul Wilson."

Similar presentations

Applications of Electromagnetism

Applications of Electromagnetism
SMPS - Switch Mode Power Supply

SMPS - Switch Mode Power Supply
High Frequency Saturable Reactor

High Frequency Saturable Reactor
Inductors and Chokes In Switch mode Supplies

Inductors and Chokes In Switch mode Supplies
Introduction to DC-DC Conversion – Cont.

Introduction to DC-DC Conversion – Cont.
Power I, VI, V I max  V max  I, VI, V I max AC Circuits use a similar definition of power as DC circuits. The one detail that need to be included.

Power I, VI, V I max  V max  I, VI, V I max AC Circuits use a similar definition of power as DC circuits. The one detail that need to be included.
Transformer SONNY P. DE LEON MT 1.

Transformer SONNY P. DE LEON MT 1.
Switched-Mode DC Power Supplies Five configurations –Flyback –Forward –Push-pull –Half Bridge –Full-Bridge Operate at high frequencies –Easy to filter.

Switched-Mode DC Power Supplies Five configurations –Flyback –Forward –Push-pull –Half Bridge –Full-Bridge Operate at high frequencies –Easy to filter.
EE 136 Project Presentation

EE 136 Project Presentation
Switchmode Transformer Design By: Rizwan Khalid. Outline Introduction Theory Pexpert simulations Applications Conclusion.

Switchmode Transformer Design By: Rizwan Khalid. Outline Introduction Theory Pexpert simulations Applications Conclusion.
Magnetic Design Considerations Transformers –Used to step-up or step-down voltages Inductors –Storage during energy transfer –Carries a DC current while.

Magnetic Design Considerations Transformers –Used to step-up or step-down voltages Inductors –Storage during energy transfer –Carries a DC current while.
Constant Current Power Supplies, Variable Linear Power supplies & Switchmode Variable Power Supplies Justin Kai EE 136 Project Prof. Zhou.

Constant Current Power Supplies, Variable Linear Power supplies & Switchmode Variable Power Supplies Justin Kai EE 136 Project Prof. Zhou.
EE 136 Final Presentation Professor Dr. Zhou Presented by: Cynthia David.

EE 136 Final Presentation Professor Dr. Zhou Presented by: Cynthia David.
Self-Oscillating Converters By: Andrew Gonzales EE136.

Self-Oscillating Converters By: Andrew Gonzales EE136.
Duty Ratio Controlled Push Pull Converter

Duty Ratio Controlled Push Pull Converter
EE 136 Project CURRENT TRANSFORMERS By Pramod Haridass.

EE 136 Project CURRENT TRANSFORMERS By Pramod Haridass.
Transformers and Coupled Circuits

Transformers and Coupled Circuits
Transformers.

Transformers.
DC-DC Fundamentals 1.2 Linear Regulator. What is a Linear Regulator? The linear regulator is a DC-DC converter to provide a constant voltage output without.

DC-DC Fundamentals 1.2 Linear Regulator. What is a Linear Regulator? The linear regulator is a DC-DC converter to provide a constant voltage output without.
Electro-Magnetic Induction © David Hoult 2009. Magnetic flux © David Hoult 2009.

Electro-Magnetic Induction © David Hoult Magnetic flux © David Hoult 2009.

Similar presentations

Ads by Google